Astrocyte-neuron interaction in the substantia gelatinosa of the spinal cord dorsal horn via P2X7 receptor-mediated release of glutamate and reactive oxygen species

The substantia gelatinosa (SG) of the spinal cord processes incoming painful information to ascending projection neurons. Whole‐cell patch clamp recordings from SG spinal cord slices documented that in a low Ca2+/no Mg2+ (low X2+) external medium adenosine triphosphate (ATP)/dibenzoyl‐ATP, Bz‐ATP) c...

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Veröffentlicht in:	Glia 2014-10, Vol.62 (10), p.1671-1686
Hauptverfasser:	Ficker, Christoph, Rozmer, Katalin, Kató, Erzsébet, Andó, Rómeó D., Schumann, Luisa, Krügel, Ute, Franke, Heike, Sperlágh, Beáta, Riedel, Thomas, Illes, Peter
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Schlagworte:	amino acid transmitters Animals astrocytes Astrocytes - drug effects Astrocytes - metabolism ATP CA1 Region, Hippocampal - drug effects CA1 Region, Hippocampal - metabolism gamma-Aminobutyric Acid - metabolism Glutamic Acid - metabolism Humans Hydrogen Peroxide - metabolism Immunohistochemistry Mice, Transgenic Microelectrodes Microglia - metabolism Neurons Neurons - drug effects Neurons - metabolism Oxygen P2X7 receptors Patch-Clamp Techniques Rats, Wistar Reactive Oxygen Species - metabolism Receptors, AMPA - metabolism Receptors, N-Methyl-D-Aspartate - metabolism Receptors, Purinergic P2X7 - metabolism Spinal cord Spinal Cord Dorsal Horn - drug effects Spinal Cord Dorsal Horn - metabolism substantia gelatinosa Substantia Gelatinosa - drug effects Substantia Gelatinosa - metabolism Tissue Culture Techniques
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creator	Ficker, Christoph Rozmer, Katalin Kató, Erzsébet Andó, Rómeó D. Schumann, Luisa Krügel, Ute Franke, Heike Sperlágh, Beáta Riedel, Thomas Illes, Peter
description	The substantia gelatinosa (SG) of the spinal cord processes incoming painful information to ascending projection neurons. Whole‐cell patch clamp recordings from SG spinal cord slices documented that in a low Ca2+/no Mg2+ (low X2+) external medium adenosine triphosphate (ATP)/dibenzoyl‐ATP, Bz‐ATP) caused inward current responses, much larger in amplitude than those recorded in a normal X2+‐containing bath medium. The effect of Bz‐ATP was antagonized by the selective P2X7 receptor antagonist A‐438079. Neuronal, but not astrocytic Bz‐ATP currents were strongly inhibited by a combination of the ionotropic glutamate receptor antagonists AP‐5 and CNQX. In fact, all neurons and some astrocytes responded to NMDA, AMPA, and muscimol with inward current, demonstrating the presence of the respective receptors. The reactive oxygen species H2O2 potentiated the effect of Bz‐ATP at neurons but not at astrocytes. Hippocampal CA1 neurons exhibited a behavior similar to, but not identical with SG neurons. Although a combination of AP‐5 and CNQX almost abolished the effect of Bz‐ATP, H2O2 was inactive. A Bz‐ATP‐dependent and A‐438079‐antagonizable reactive oxygen species production in SG slices was proven by a microelectrode biosensor. Immunohistochemical investigations showed the colocalization of P2X7‐immunoreactivity with microglial (Iba1), but not astrocytic (GFAP, S100β) or neuronal (MAP2) markers in the SG. It is concluded that SG astrocytes possess P2X7 receptors; their activation leads to the release of glutamate, which via NMDA‐ and AMPA receptor stimulation induces cationic current in the neighboring neurons. P2X7 receptors have a very low density under resting conditions but become functionally upregulated under pathological conditions. GLIA 2014;62:1671–1686 Main Points Patch clamp experiments in substantia gelatinosa slices of the spinal cord show astrocyte‐neuron interaction mediated by astrocytic P2X7 receptors and the subsequent release of glutamate. The astrocytic release of reactive oxygen species appears to facilitate this interaction.
doi_str_mv	10.1002/glia.22707
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Whole‐cell patch clamp recordings from SG spinal cord slices documented that in a low Ca2+/no Mg2+ (low X2+) external medium adenosine triphosphate (ATP)/dibenzoyl‐ATP, Bz‐ATP) caused inward current responses, much larger in amplitude than those recorded in a normal X2+‐containing bath medium. The effect of Bz‐ATP was antagonized by the selective P2X7 receptor antagonist A‐438079. Neuronal, but not astrocytic Bz‐ATP currents were strongly inhibited by a combination of the ionotropic glutamate receptor antagonists AP‐5 and CNQX. In fact, all neurons and some astrocytes responded to NMDA, AMPA, and muscimol with inward current, demonstrating the presence of the respective receptors. The reactive oxygen species H2O2 potentiated the effect of Bz‐ATP at neurons but not at astrocytes. Hippocampal CA1 neurons exhibited a behavior similar to, but not identical with SG neurons. Although a combination of AP‐5 and CNQX almost abolished the effect of Bz‐ATP, H2O2 was inactive. A Bz‐ATP‐dependent and A‐438079‐antagonizable reactive oxygen species production in SG slices was proven by a microelectrode biosensor. Immunohistochemical investigations showed the colocalization of P2X7‐immunoreactivity with microglial (Iba1), but not astrocytic (GFAP, S100β) or neuronal (MAP2) markers in the SG. It is concluded that SG astrocytes possess P2X7 receptors; their activation leads to the release of glutamate, which via NMDA‐ and AMPA receptor stimulation induces cationic current in the neighboring neurons. P2X7 receptors have a very low density under resting conditions but become functionally upregulated under pathological conditions. GLIA 2014;62:1671–1686 Main Points Patch clamp experiments in substantia gelatinosa slices of the spinal cord show astrocyte‐neuron interaction mediated by astrocytic P2X7 receptors and the subsequent release of glutamate. 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Whole‐cell patch clamp recordings from SG spinal cord slices documented that in a low Ca2+/no Mg2+ (low X2+) external medium adenosine triphosphate (ATP)/dibenzoyl‐ATP, Bz‐ATP) caused inward current responses, much larger in amplitude than those recorded in a normal X2+‐containing bath medium. The effect of Bz‐ATP was antagonized by the selective P2X7 receptor antagonist A‐438079. Neuronal, but not astrocytic Bz‐ATP currents were strongly inhibited by a combination of the ionotropic glutamate receptor antagonists AP‐5 and CNQX. In fact, all neurons and some astrocytes responded to NMDA, AMPA, and muscimol with inward current, demonstrating the presence of the respective receptors. The reactive oxygen species H2O2 potentiated the effect of Bz‐ATP at neurons but not at astrocytes. Hippocampal CA1 neurons exhibited a behavior similar to, but not identical with SG neurons. Although a combination of AP‐5 and CNQX almost abolished the effect of Bz‐ATP, H2O2 was inactive. A Bz‐ATP‐dependent and A‐438079‐antagonizable reactive oxygen species production in SG slices was proven by a microelectrode biosensor. Immunohistochemical investigations showed the colocalization of P2X7‐immunoreactivity with microglial (Iba1), but not astrocytic (GFAP, S100β) or neuronal (MAP2) markers in the SG. It is concluded that SG astrocytes possess P2X7 receptors; their activation leads to the release of glutamate, which via NMDA‐ and AMPA receptor stimulation induces cationic current in the neighboring neurons. P2X7 receptors have a very low density under resting conditions but become functionally upregulated under pathological conditions. GLIA 2014;62:1671–1686 Main Points Patch clamp experiments in substantia gelatinosa slices of the spinal cord show astrocyte‐neuron interaction mediated by astrocytic P2X7 receptors and the subsequent release of glutamate. The astrocytic release of reactive oxygen species appears to facilitate this interaction.</description><subject>amino acid transmitters</subject><subject>Animals</subject><subject>astrocytes</subject><subject>Astrocytes - drug effects</subject><subject>Astrocytes - metabolism</subject><subject>ATP</subject><subject>CA1 Region, Hippocampal - drug effects</subject><subject>CA1 Region, Hippocampal - metabolism</subject><subject>gamma-Aminobutyric Acid - metabolism</subject><subject>Glutamic Acid - metabolism</subject><subject>Humans</subject><subject>Hydrogen Peroxide - metabolism</subject><subject>Immunohistochemistry</subject><subject>Mice, Transgenic</subject><subject>Microelectrodes</subject><subject>Microglia - metabolism</subject><subject>Neurons</subject><subject>Neurons - drug effects</subject><subject>Neurons - metabolism</subject><subject>Oxygen</subject><subject>P2X7 receptors</subject><subject>Patch-Clamp Techniques</subject><subject>Rats, Wistar</subject><subject>Reactive Oxygen Species - metabolism</subject><subject>Receptors, AMPA - metabolism</subject><subject>Receptors, N-Methyl-D-Aspartate - metabolism</subject><subject>Receptors, Purinergic P2X7 - metabolism</subject><subject>Spinal cord</subject><subject>Spinal Cord Dorsal Horn - drug effects</subject><subject>Spinal Cord Dorsal Horn - metabolism</subject><subject>substantia gelatinosa</subject><subject>Substantia Gelatinosa - drug effects</subject><subject>Substantia Gelatinosa - metabolism</subject><subject>Tissue Culture Techniques</subject><issn>0894-1491</issn><issn>1098-1136</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kd9uFCEUxonR2LV64wMYEm-MyVRgYJi53DR2bbJRE__eEQbObqmzsAWmdt_HB5XptL3wwisO5_zOR_g-hF5SckIJYe-2g9MnjEkiH6EFJV1bUVo3j9GCtB2vKO_oEXqW0iUhtFzkU3TEeNsJ1pEF-rNMOQZzyFB5GGPw2PkMUZvsbmucLwCnsU9Z--w03sKgs_MhaRw283DvvB6wCdFiG2Iq9UWIHl8X-jP7KXEEA_scYrUD63QGWzoD6ASTwnYYs96VLtZ-GkwPX5fJzWELvmiDcZCeoycbPSR4cXceo29n77-efqjWn1bnp8t1ZUTNZdWQjrVW6pZLKYzkllHRNM1m0_Ytsb2tNa9by2tBaHHLCEulNUYYsLbXjPb1MXoz6-5juBohZbVzycAwaA9hTKrIEcqJbJuCvv4HvQxjLEZMlODF3KZmhXo7UyaGlCJs1D66nY4HRYmaslNTduo2uwK_upMc-2LVA3ofVgHoDPx2Axz-I6VW6_PlvWg177iU4eZhR8dfqpG1FOrHx5Van3XlV-K7-lL_BRQHtZU</recordid><startdate>201410</startdate><enddate>201410</enddate><creator>Ficker, Christoph</creator><creator>Rozmer, Katalin</creator><creator>Kató, Erzsébet</creator><creator>Andó, Rómeó D.</creator><creator>Schumann, Luisa</creator><creator>Krügel, Ute</creator><creator>Franke, Heike</creator><creator>Sperlágh, Beáta</creator><creator>Riedel, Thomas</creator><creator>Illes, Peter</creator><general>Blackwell Publishing Ltd</general><general>Wiley Subscription Services, Inc</general><scope>BSCLL</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QL</scope><scope>7T7</scope><scope>7TK</scope><scope>7U9</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>H94</scope><scope>K9.</scope><scope>M7N</scope><scope>P64</scope></search><sort><creationdate>201410</creationdate><title>Astrocyte-neuron interaction in the substantia gelatinosa of the spinal cord dorsal horn via P2X7 receptor-mediated release of glutamate and reactive oxygen species</title><author>Ficker, Christoph ; Rozmer, Katalin ; Kató, Erzsébet ; Andó, Rómeó D. ; Schumann, Luisa ; Krügel, Ute ; Franke, Heike ; Sperlágh, Beáta ; Riedel, Thomas ; Illes, Peter</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c5347-60928d7a84775c74d215666ff8b80dbd3a438d43501227c5d17dcc5ceddba21b3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2014</creationdate><topic>amino acid transmitters</topic><topic>Animals</topic><topic>astrocytes</topic><topic>Astrocytes - drug effects</topic><topic>Astrocytes - metabolism</topic><topic>ATP</topic><topic>CA1 Region, Hippocampal - drug effects</topic><topic>CA1 Region, Hippocampal - metabolism</topic><topic>gamma-Aminobutyric Acid - metabolism</topic><topic>Glutamic Acid - metabolism</topic><topic>Humans</topic><topic>Hydrogen Peroxide - metabolism</topic><topic>Immunohistochemistry</topic><topic>Mice, Transgenic</topic><topic>Microelectrodes</topic><topic>Microglia - metabolism</topic><topic>Neurons</topic><topic>Neurons - drug effects</topic><topic>Neurons - metabolism</topic><topic>Oxygen</topic><topic>P2X7 receptors</topic><topic>Patch-Clamp Techniques</topic><topic>Rats, Wistar</topic><topic>Reactive Oxygen Species - metabolism</topic><topic>Receptors, AMPA - metabolism</topic><topic>Receptors, N-Methyl-D-Aspartate - metabolism</topic><topic>Receptors, Purinergic P2X7 - metabolism</topic><topic>Spinal cord</topic><topic>Spinal Cord Dorsal Horn - drug effects</topic><topic>Spinal Cord Dorsal Horn - metabolism</topic><topic>substantia gelatinosa</topic><topic>Substantia Gelatinosa - drug effects</topic><topic>Substantia Gelatinosa - metabolism</topic><topic>Tissue Culture Techniques</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Ficker, Christoph</creatorcontrib><creatorcontrib>Rozmer, Katalin</creatorcontrib><creatorcontrib>Kató, Erzsébet</creatorcontrib><creatorcontrib>Andó, Rómeó D.</creatorcontrib><creatorcontrib>Schumann, Luisa</creatorcontrib><creatorcontrib>Krügel, Ute</creatorcontrib><creatorcontrib>Franke, Heike</creatorcontrib><creatorcontrib>Sperlágh, Beáta</creatorcontrib><creatorcontrib>Riedel, Thomas</creatorcontrib><creatorcontrib>Illes, Peter</creatorcontrib><collection>Istex</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Bacteriology Abstracts (Microbiology B)</collection><collection>Industrial and Applied Microbiology Abstracts (Microbiology A)</collection><collection>Neurosciences Abstracts</collection><collection>Virology and AIDS Abstracts</collection><collection>Technology Research Database</collection><collection>Environmental Sciences and Pollution Management</collection><collection>Engineering Research Database</collection><collection>AIDS and Cancer Research Abstracts</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>Algology Mycology and Protozoology Abstracts (Microbiology C)</collection><collection>Biotechnology and BioEngineering Abstracts</collection><jtitle>Glia</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Ficker, Christoph</au><au>Rozmer, Katalin</au><au>Kató, Erzsébet</au><au>Andó, Rómeó D.</au><au>Schumann, Luisa</au><au>Krügel, Ute</au><au>Franke, Heike</au><au>Sperlágh, Beáta</au><au>Riedel, Thomas</au><au>Illes, Peter</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Astrocyte-neuron interaction in the substantia gelatinosa of the spinal cord dorsal horn via P2X7 receptor-mediated release of glutamate and reactive oxygen species</atitle><jtitle>Glia</jtitle><addtitle>Glia</addtitle><date>2014-10</date><risdate>2014</risdate><volume>62</volume><issue>10</issue><spage>1671</spage><epage>1686</epage><pages>1671-1686</pages><issn>0894-1491</issn><eissn>1098-1136</eissn><coden>GLIAEJ</coden><abstract>The substantia gelatinosa (SG) of the spinal cord processes incoming painful information to ascending projection neurons. Whole‐cell patch clamp recordings from SG spinal cord slices documented that in a low Ca2+/no Mg2+ (low X2+) external medium adenosine triphosphate (ATP)/dibenzoyl‐ATP, Bz‐ATP) caused inward current responses, much larger in amplitude than those recorded in a normal X2+‐containing bath medium. The effect of Bz‐ATP was antagonized by the selective P2X7 receptor antagonist A‐438079. Neuronal, but not astrocytic Bz‐ATP currents were strongly inhibited by a combination of the ionotropic glutamate receptor antagonists AP‐5 and CNQX. In fact, all neurons and some astrocytes responded to NMDA, AMPA, and muscimol with inward current, demonstrating the presence of the respective receptors. The reactive oxygen species H2O2 potentiated the effect of Bz‐ATP at neurons but not at astrocytes. Hippocampal CA1 neurons exhibited a behavior similar to, but not identical with SG neurons. Although a combination of AP‐5 and CNQX almost abolished the effect of Bz‐ATP, H2O2 was inactive. A Bz‐ATP‐dependent and A‐438079‐antagonizable reactive oxygen species production in SG slices was proven by a microelectrode biosensor. Immunohistochemical investigations showed the colocalization of P2X7‐immunoreactivity with microglial (Iba1), but not astrocytic (GFAP, S100β) or neuronal (MAP2) markers in the SG. It is concluded that SG astrocytes possess P2X7 receptors; their activation leads to the release of glutamate, which via NMDA‐ and AMPA receptor stimulation induces cationic current in the neighboring neurons. P2X7 receptors have a very low density under resting conditions but become functionally upregulated under pathological conditions. GLIA 2014;62:1671–1686 Main Points Patch clamp experiments in substantia gelatinosa slices of the spinal cord show astrocyte‐neuron interaction mediated by astrocytic P2X7 receptors and the subsequent release of glutamate. The astrocytic release of reactive oxygen species appears to facilitate this interaction.</abstract><cop>United States</cop><pub>Blackwell Publishing Ltd</pub><pmid>24895290</pmid><doi>10.1002/glia.22707</doi><tpages>16</tpages><oa>free_for_read</oa></addata></record>
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subjects	amino acid transmitters Animals astrocytes Astrocytes - drug effects Astrocytes - metabolism ATP CA1 Region, Hippocampal - drug effects CA1 Region, Hippocampal - metabolism gamma-Aminobutyric Acid - metabolism Glutamic Acid - metabolism Humans Hydrogen Peroxide - metabolism Immunohistochemistry Mice, Transgenic Microelectrodes Microglia - metabolism Neurons Neurons - drug effects Neurons - metabolism Oxygen P2X7 receptors Patch-Clamp Techniques Rats, Wistar Reactive Oxygen Species - metabolism Receptors, AMPA - metabolism Receptors, N-Methyl-D-Aspartate - metabolism Receptors, Purinergic P2X7 - metabolism Spinal cord Spinal Cord Dorsal Horn - drug effects Spinal Cord Dorsal Horn - metabolism substantia gelatinosa Substantia Gelatinosa - drug effects Substantia Gelatinosa - metabolism Tissue Culture Techniques
title	Astrocyte-neuron interaction in the substantia gelatinosa of the spinal cord dorsal horn via P2X7 receptor-mediated release of glutamate and reactive oxygen species
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